Thermalization of plastic flow versus stationarity of thermomechanical equilibrium in SGR theory

We discuss issues related to thermalization of plastic flow in the context of soft glassy rheology (SGR) theory. An apparent problem with the theory in its current form is that the stationarity of thermomechanical equilibrium obtained by requiring that its flow rule satisfy detailed balance in the absence of applied deformation requires plastic flow to be athermal. This prevents proper application of SGR to small-molecule and polymer glasses where plastic flow is often well-thermalized. Clearly, one would like to have a SGR-like theory of thermalized plastic flow that satisfies stationarity. We discuss reasons why such a theory could prove very useful and clarify obstacles that must be overcome in order to develop it.Comment: substantially revised in response to referee comment

Structure and dynamics of model colloidal clusters with short-range attractions

We examine the structure and dynamics of small isolated $N$-particle clusters interacting via short-ranged Morse potentials. "Ideally preprared ensembles" obtained via exact enumeration studies of sticky hard sphere packings serve as reference states allowing us to identify key statistical-geometrical properties and to quantitatively characterize how nonequilibrium ensembles prepared by thermal quenches at different rates $\dot{T}$ differ from their equilibrium counterparts. Studies of equilibrium dynamics show nontrival temperature dependence: nonexponential relaxation indicates both glassy dynamics and differing stabilities of degenerate clusters with different structures. Our results should be useful for extending recent experimental studies of small colloidal clusters to examine both equilibrium relaxation dynamics at fixed $T$ and a variety of nonequilibrium phenomena.Comment: Noro-Frenkel analysis added. Published in PR

Stories of Mothers and Child Welfare (SUMMARY REPORT)

The voices we hear describing the lives of mothers who come into contact with child welfare agencies are usually those of service providers and researchers. How do mothers make sense of their own lives and what happened to their families when they became involved with child welfare? This report provides an opportunity to listen to what 16 of these mothers had to say over conversations averaging 5 - 6 hours with each woman. Aspects of these stories will be familiar to some readers. Nonetheless, these stories challenge both popular and professional perceptions of who these mothers are and how they confront the obstacles in their lives. The stories also ask us to consider how we might make our helping more welcome and congruent with the lives of these mothers, their children and families. (Full version of report also available.

Stories of Mothers and Child Welfare (FULL REPORT)

The voices we hear describing the lives of mothers who come into contact with child welfare agencies are usually those of service providers and researchers. How do mothers make sense of their own lives and what happened to their families when they became involved with child welfare? This report provides an opportunity to listen to what 16 of these mothers had to say over conversations averaging 5 - 6 hours with each woman. Aspects of these stories will be familiar to some readers. Nonetheless, these stories challenge both popular and professional perceptions of who these mothers are and how they confront the obstacles in their lives. The stories also ask us to consider how we might make our helping more welcome and congruent with the lives of these mothers, their children and families. (Summary version of report also available.

Minimal energy packings and collapse of sticky tangent hard-sphere polymers

We enumerate all minimal energy packings (MEPs) for small single linear and ring polymers composed of spherical monomers with contact attractions and hard-core repulsions, and compare them to corresponding results for monomer packings. We define and identify ``dividing surfaces" in polymer packings, which reduce the number of arrangements that satisfy hard-sphere and covalent bond constraints. Compared to monomer MEPs, polymer MEPs favor intermediate structural symmetry over high and low symmetries. We also examine the packing-preparation dependence for longer single chains using molecular dynamics simulations. For slow temperature quenches, chains form crystallites with close-packed cores. As quench rate increases, the core size decreases and the exterior becomes more disordered. By examining the contact number, we connect suppression of crystallization to the onset of isostaticity in disordered packings. These studies represent a significant step forward in our ability to predict how the structural and mechanical properties of compact polymers depend on collapse dynamics.Comment: Supplementary material is integrated in this versio